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Wednesday, August 5, 2020 | History

2 edition of Mining machine orientation control based on inertial, gravitational, and magnetic sensors found in the catalog.

Mining machine orientation control based on inertial, gravitational, and magnetic sensors

John J. Sammarco

Mining machine orientation control based on inertial, gravitational, and magnetic sensors

by John J. Sammarco

  • 296 Want to read
  • 21 Currently reading

Published by U.S. Dept. of the Interior, Bureau of Mines in Washington, D.C .
Written in English

    Subjects:
  • Coal-mining machinery -- Automatic control.,
  • Navigation -- Data processing.

  • Edition Notes

    Includes bibliographical references (p. 21).

    Statementby John J. Sammarco.
    SeriesReport of investigations ;, 9326, Report of investigations (United States. Bureau of Mines) ;, 9326.
    Classifications
    LC ClassificationsTN23 .U43 no. 9326, TN813 .U43 no. 9326
    The Physical Object
    Paginationii, 23 p. :
    Number of Pages23
    ID Numbers
    Open LibraryOL1850605M
    LC Control Number90002101

    Indoor Navigation (IPIN) make use of inertial sensors. Inertial sensors are also frequently used for pose estimation of cars, boats, trains and aerial vehicles, see e.g. [, 23]. Examples of this are shown in Figure There exists a large amount of literature on the use of inertial sensors for position and orientation estimation. Using Inertial Sensors for Position and Orientation Estimation Manon Kok?, Jeroen D. Holyand Thomas B. Sch onz Delft Center for Systems and Control, Delft University of Technology, the Netherlands1 E-mail: [email protected]

    Nov 17,  · Fundamentals of Inertial Sensors and Navigation - Kindle edition by Amitava Bose. Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading Fundamentals of Inertial Sensors and Navigation.4/5(3). Measurement and Estimation of 3D Orientation using Magnetic and Inertial Sensors. This paper presents a complete implementation of the measurement and estimation of 3D orientation based on a magnetic and inertial measurement unit (MIMU) that we developed. The measurement unit was a combination of a 3D accelerometer, a 3D gyroscope, and a 3D Cited by: 8.

    Colloquium on Strategic Directions for Control on Wednesday, 7 June / [organised by the Working Par Proceedings of the 5th IFAC World Congress, Paris, France, June , / organized by the Internati Mining machine orientation control based on inertial, gravitational, and . The term absolute gravimeter has most often been used to label gravimeters which report the local vertical acceleration due to the earth. Relative gravimeter usually refer to differential comparisons of gravity from one place to another. They are designed to subtract the .


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Mining machine orientation control based on inertial, gravitational, and magnetic sensors by John J. Sammarco Download PDF EPUB FB2

Mining machine orientation control based on inertial, gravitational, and magnetic sensors. Published Date: Series: "The results of laboratory, field, and open pit accuracy and performance testing of the Honeywell Ring Laser Gyro Inertial Navigation System (INS), a navigation system designed to provide the heading and location of a Cited by: 4.

Get this from a library. Mining machine orientation control based on inertial, gravitational, and magnetic sensors. [John J Sammarco]. Mining Machine Orientation Control Based on Inertial, Gravitational, and Magnetic Sensors.

Authors The technology required for a computer-assisted mining machine requires development of subsystems for machine intelligence, navigation-positioning, and computer control. This report focuses on one subsystem, an onboard heading system, which.

One approach is to develop technology for automation of a continuous mining machine. Realization of an autonomous mining machine requires development of subsystems for machine intelligence, navigation-positioning, and computer control. Mining Machine Orientation Control Based on Inertial, Gravitational, and Magnetic Sensors.

Authors. Mining machine orientation control based on inertial, gravitational, and magnetic sensors. Published Date: Series: "The results of laboratory, field, and open pit accuracy and performance testing of the Honeywell Ring Laser Gyro Inertial Navigation System (INS), a navigation system designed to provide the heading and location of a.

Mining-machine orientation control based on inertial, gravitational, and magnetic sensors. Report of Investigations/ Technical Report Sammarco, J.J. The U.S. Bureau of Mines seeks to increase safety and efficiency in U.S.

coal mines. One approach is to develop technology for automation of. Magnetic and inertial measurement units are an emerging technology to obtain 3D orientation of body segments in human movement analysis. In this respect, sensor fusion is used to limit the drift errors resulting from the gyroscope data integration by exploiting accelerometer and magnetic aiding caistab-gabon.com by: Oct 18,  · 1.

Introduction. Small wearable inertial/magnetic sensors (ISs) are becoming increasingly popular for assessment of three-dimensional (3D) measurement of human motion in and outside the laboratory setting (Sabatini, ).They provide advantages over typical laboratory-based optoelectronic systems, suffering neither from measurement-volume limitations (field of view of cameras) nor marker Cited by: The GP9 combines temperature-compensated rate gyros, accelerometers, magnetometers, and absolute air pressure with GPS to produce angle estimates that are reliable even during aggressive dynamic maneuvers.

Unlike more simple attitude sensors, the GP9 is capable of measuring its yaw angle without relying on unpredictable magnetic field measurements. An e cient orientation lter for inertial and inertial/magnetic sensor arrays Sebastian O.H.

Madgwick April 30, Abstract This report presents a novel orientation lter applicable to IMUs consisting of tri-axis gyroscopes and accelerometers, and MARG sensor arrays that also include tri-axis magnetometers.

Mining-machine orientation control based on inertial, gravitational, and magnetic sensors. Report of Investigations/ Centers for Disease Control and Prevention (CDC).

Apr 21,  · Assessment of hand kinematics is important when evaluating hand functioning. Major drawbacks of current sensing glove systems are lack of rotational observability in particular directions, labour intensive calibration methods which are sensitive to wear and lack of an absolute hand orientation estimate.

We propose an ambulatory system using inertial sensors that can be placed on the hand Cited by: Calibration methods for inertial and magnetic sensors Article in Sensors and Actuators A Physical (2) · December with Reads How we measure 'reads'.

Design and analysis of an orientation estimation system using coplanar gyro-free inertial measurement unit and magnetic sensors An efficient real-time human posture tracking algorithm using low-cost inertial and magnetic sensors, in: Proceedings of IEEE/RSJ,pp.

– M.F. GolnaraghiA quaternion-based orientation Cited by: The aim of this article is to review systematically and appraise critically the literature surrounding the research, comparing inertial sensors with any kind of gold standard; this gold standard has to be a tool for measuring human movement (e.g.

electrogoniometry, optoelectronic systems, electromagnetic systems, etc.).Cited by: Nov 15,  · Using Inertial Sensors for Position and Orientation Estimation.

Microelectromechanical system (MEMS) inertial sensors have become ubiquitous in modern society. Built into mobile telephones, gaming consoles, virtual reality headsets, we use such sensors on a daily caistab-gabon.com by: of magnetic coils disqualify it in context of wearable devices, with exception of specific usages as described in [8].

Since the advent of MEMS inertial and magnetic sensors, many solutions have been proposed for problem of position and ori-entation tracking using fusion of inertial and passive magnetic measurements [9], [10], [11].

Orientation estimation of an outdoor vehicle using inertial, magnetic and CP-GPS sensors. The orientation estimation of an outdoor ground or aerial vehicle is crucial in an autonomous control system. The typical onboard sensors have disadvantages that makes hard to get reliable orientation based on a single sensor.

This paper presents a. GPS-Aided Inertial Navigation Systems (INS) Inertial Measurement Units (IMU) Attitude & Heading Reference Systems (AHRS) Miniature High Precision Digital Tilt Sensor (OS3D-DTS) Motion Reference Units (MRU) Wave Sensor (WS) Miniature 3D Orientation Sensors (OS3D) Weapon Orientation Module (WOM) Man-Wearable Platform (MWP).

Inertial Navigation Systems and Its Practical Applications Recently, most of the manufactured inertial measurement units are based on MEMS technology. Regardless of easy usability, the main advantage of such devices is considerably its small size.

Electromicromechanical chips are made of silicon, glass and polymer materials. sensors can detect portion of the gravity force and earth magnetic field depending on the orientation of the object.

Reversely, these sensor measurements can be processed to determine the orientation of an object. Using 3-axis linear accelerometers and 3-axis magnetic sensors is one of the most popular methods to determine the orientation.An inertial navigation system (INS) is a navigation device that uses a computer, motion sensors (accelerometers) and rotation sensors to continuously calculate by dead reckoning the position, the orientation, and the velocity (direction and speed of movement) of a moving object without the need for external references.Prodlnga o(the IEEE International Confanme on RoboU~6 6 AY(Omal1m New Orleans, IA Aprll An Investigation of the Effects of Magnetic Variations on Inertialklagnetic Orientation Sensors Eric R.

Bachmann’, Xiaoping Yun2, and Christopher W. Peterson’ ’Department of Electrical and Computer Engineering, Naval Postgraduate School, Monterey, CA